Unique characteristics of autoantibodies targeting MET in patients with breast and lung cancer
Michal Navon, … , Einav Nili Gal-Yam, Natalia T. Freund
Michal Navon, … , Einav Nili Gal-Yam, Natalia T. Freund
Published May 22, 2025
Citation Information: JCI Insight. 2025;10(10):e187392. https://doi.org/10.1172/jci.insight.187392.
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Research Article Immunology

Unique characteristics of autoantibodies targeting MET in patients with breast and lung cancer

Abstract

The presence of B cells in tumors is correlated with favorable prognosis and efficient response to immunotherapy. While tumor-reactive antibodies have been detected in several cancer types, identifying antibodies that specifically target tumor-associated antigens remains a challenge. Here, we investigated the antibodies spontaneously elicited during breast and lung cancer that bind the cancer-associated antigen MET. We screened patients with lung (n = 25) and breast (n = 75) cancer and found that 13% had antibodies binding to both the recombinant ectodomain of MET, and the ligand binding part of MET, SEMA. MET binding in the breast cancer cohort was significantly correlated with hormone receptor–positive status. We further conducted immunoglobulin sequencing of peripheral MET-enriched B cells from 6 MET-reactive patients. The MET-enriched B cell repertoire was found to be polyclonal and prone to non-IgG1 subclass. Nine monoclonal antibodies were cloned and analyzed, and these exhibited MET binding, low thermostability, and high polyreactivity. Among these, antibodies 87B156 and 69B287 effectively bound to tumor cells and inhibited MET-expressing breast cancer cell lines. Overall, our data demonstrate that some patients with breast and lung cancer develop polyreactive antibodies that cross-react with MET. These autoantibodies have a potential contribution to immune responses against tumors.

Authors

Michal Navon, Noam Ben-Shalom, Maya Dadiani, Michael Mor, Ron Yefet, Michal Bakalenik-Gavry, Dana Chat, Nora Balint-Lahat, Iris Barshack, Ilan Tsarfaty, Einav Nili Gal-Yam, Natalia T. Freund

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Figure 3

MET-binding mAbs cloned from patients with cancer.

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MET-binding mAbs cloned from patients with cancer. (A) Binding of anti-M...
(A) Binding of anti-MET mAbs to MET (left panel) and to SEMA (right panel), as detected by ELISA. mGO.53 serves as an isotype control (10). The legend on the right side indicates mAb IDs. (B) Competition ELISA of anti-MET mAbs (69B287, 87B165, and mGO.53) with HGF. OD650 values represent the binding of mAbs to MET following incubation with varying HGF concentrations (100, 1.56, 0.02, and 0 μg/mL). A commercial anti-HGF mAb (5 μg/mL) was included to assess HGF binding to MET. (C) Representative images of tumor tissue (left) and healthy adjacent tissue (right) stained with phalloidin and 87B156 (top) or 69B287 (bottom) mAb. (D) Quantification and normalization of 87B156 (top) or 69B287 (bottom) mAb to phalloidin between tumor (n = 11) and healthy tissues (n = 11). See also Supplemental Figure 5. *P < 0.05 by Wilcoxon’s test. (E) Representative images of tumor tissue stained with DAPI, phalloidin conjugated to FITC, mAb conjugated to Alexa Fluor 647, and the combined image with all staining. Scale bars: 100 μm (left 3 images) and 50 μm (combined).